МЕТОД ВИЗНАЧЕННЯ ОПТИМАЛЬНИХ ПРОПУСКНИХ ЗДАТНОСТЕЙ КАНАЛІВ ЗВ'ЯЗКУ ГІПЕРКОНВЕРГЕНТНОЇ МЕРЕЖІ
Merlac, V., Smatkov, S., Kuchuk, N. and Nechausov A. (2018), “Resourses Distribution Method of University e-learning on the Hypercovergent platform”, Сonf. Proc. of 2018 IEEE 9th International Conference on Dependable Systems, Service and Technologies. DESSERT’2018, Ukraine, Kyiv, May 24-27, pp. 136-140, – DOI: http://dx.doi.org/ 10.1109/DESSERT.2018.8409114
Shmatkov S.I., Kuchuk, N.G. and Donets V.V. (2018), “Model of information structure of the hyperconvergent system of support of electronic computing resources of university e-learning”, Control systems, navigation and communication, PNTU, Poltava, No. 2 (48), pp. 97-100.
Donets, V., Kuchuk, N. and Shmatkov, S. (2018), “Development of software of e-learning information system synthesis mod-eling process”, Advanced Information Systems, Vol. 2, No 2, pp. 117–121, DOI:
Zykov, I.S., Kuchuk, N.H. and Shmatkov S.I. (2018), “Synthesis of architecture of the computer transaction management sys-tem e-learning”, Advanced Information Systems, Vol. 2, No. 3, pp. 60-66, DOI:
Kuchuk, N., Mozhaiev, O., Mozhaiev; M. and Kuchuk, H. (2017), “Method for calculating of R-learning traffic peakedness”, 4th International Scientific-Practical Conference Problems of Infocommunications Science and Technology, PIC S and T 2017, pp. 359–362. URL : http://dx.doi.org/10.1109/INFOCOMMST.2017.8246416.
Kuchuk, G.A. (2007), " Traffic management of multiservice distributed telecommunication network", Systems of control, navi-gation and communication, No. 2, pp. 18–27.
Kuchuk G.A., Mozhaev, O.O. and Vorobyov O.V. (2006), “The method of aggregation of fractal traffic”, Radio electronic and computer system, No. 6 (18), pp. 181-188.
Kovalenko, A. A. (2014), “Approaches to the synthesis of the technical structure of a computer system forming the control system of an object of critical application”, Collection of scientific works of KhNU of Air Forces, No. 1 (38), pp. 116-119.
Kuchuk, G. А. (1998), “Minimize the load on the network holiness channels”, Inf. Proc. Systems, No. 1 (5), pp. 149-154.
Kovalenko, A.A. and Kuchuk, G.A. (2016), “Optimal traffic control of a multiservice network based on the methods of sequen-tial improvement of solutions”, Systems of armament and military equipment, No. 3 (47), pp. 59-63.
Amin Salih M. and Potrus M.Y. (2015), “A Method for Compensation of Tcp Throughput Degrading During Movement Of Mobile Node”, ZANCO Journal of Pure and Applied Sciences, Vol. 27, No 6, pp. 59–68.
Kovalenko, A.A. (2014), “Approaches to the synthesis of the information structure of the system for managing an object of critical application”, Information Processing Systems, No. 1 (117), pp. 180-184.
Kuchuk, G., Nechausov, S. and Kharchenko, V. (2015), “Two-stage optimization of resource allocation for hybrid cloud data store”, International Conference on Information and Digital Technologies, Zilina, pp. 266-271.
Ruban, I., Kuchuk, H. and Kovalenko A. (2017), “Redistribution of base stations load in mobile communication networks”, Innovative technologies and scientific solutions for industries, No 1 (1), P. 75–81.
Kuchuk G.A., Mohammad A.S. and Kovalenko, A.A. (2011), “The parametric data transmission control method for modifying the transport protocols of wireless networks ”, Information Processing Systems, No. 8 (98), pp. 211-218.
Kuchuk, G.A., Kovalenko, A.A. and Lukova-Chujiko, N.V. (2017), “A method for minimizing the average latency of packets in the virtual connections of the cloud service support network”, Control, navigation and communication systems, PNTU, Pol-tava, No. 2 (42),- pp. 117–120.
Kovalenko, А. and Kuchuk H. (2018), “Methods for synthesis of informational and technical structures of critical application object’s control system”, Advanced Information Systems, 2018, Vol. 2, No. 1, pp. 22–27, DOI: https://doi.org/10.20998/2522-9052.2018.1.04
Sviridov, A., Kovalenko, A. and Kuchuk, H. (2018), “The pass-through capacity redevelopment method of net critical section based on improvement ON/OFF models of traffic”, Advanced Information Systems, Vol. 2, No. 2, pp. 139–144, DOI: https://doi.org/10.20998/2522-9052.2018.2.24
Copyright (c) 2020 Serhii Semenov, Nina Kuchuk, Nataliia Lukova-Chuiko